How to get the random graph with non-uniform probabilities?
The Rado Graph, sometimes also known as the (countable) Random Graph, can be generated almost surely by putting an edge between any pair of vertices with some fixed probability $p \in (0, 1)$, independently of other pairs. In this article, we study the influence of allowing different probabilities f...
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| creator | Coregliano, Leonardo N Swaczyna, Jarosław Widz, Agnieszka |
| description | The Rado Graph, sometimes also known as the (countable) Random Graph, can be
generated almost surely by putting an edge between any pair of vertices with
some fixed probability $p \in (0, 1)$, independently of other pairs. In this
article, we study the influence of allowing different probabilities for each
pair of vertices. More specifically, we characterize for which sequences
$(p_n)_{n\in \mathbb{N}}$ of values in $[0, 1]$ there exists a bijection f from
pairs of vertices in $\mathbb{N}$ to $\mathbb{N}$ such that if we put an edge
between $v$ and $w$ with probability $p_{f(\{v,w\})}$, independently of other
pairs, then the Random Graph arises almost surely. |
| doi_str_mv | 10.48550/arxiv.2405.16142 |
| format | Article |
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generated almost surely by putting an edge between any pair of vertices with
some fixed probability $p \in (0, 1)$, independently of other pairs. In this
article, we study the influence of allowing different probabilities for each
pair of vertices. More specifically, we characterize for which sequences
$(p_n)_{n\in \mathbb{N}}$ of values in $[0, 1]$ there exists a bijection f from
pairs of vertices in $\mathbb{N}$ to $\mathbb{N}$ such that if we put an edge
between $v$ and $w$ with probability $p_{f(\{v,w\})}$, independently of other
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generated almost surely by putting an edge between any pair of vertices with
some fixed probability $p \in (0, 1)$, independently of other pairs. In this
article, we study the influence of allowing different probabilities for each
pair of vertices. More specifically, we characterize for which sequences
$(p_n)_{n\in \mathbb{N}}$ of values in $[0, 1]$ there exists a bijection f from
pairs of vertices in $\mathbb{N}$ to $\mathbb{N}$ such that if we put an edge
between $v$ and $w$ with probability $p_{f(\{v,w\})}$, independently of other
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generated almost surely by putting an edge between any pair of vertices with
some fixed probability $p \in (0, 1)$, independently of other pairs. In this
article, we study the influence of allowing different probabilities for each
pair of vertices. More specifically, we characterize for which sequences
$(p_n)_{n\in \mathbb{N}}$ of values in $[0, 1]$ there exists a bijection f from
pairs of vertices in $\mathbb{N}$ to $\mathbb{N}$ such that if we put an edge
between $v$ and $w$ with probability $p_{f(\{v,w\})}$, independently of other
pairs, then the Random Graph arises almost surely.</abstract><doi>10.48550/arxiv.2405.16142</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Mathematics - Combinatorics |
| title | How to get the random graph with non-uniform probabilities? |
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